EFPF (European Factory Platform) | European Connected Factory Platform for Agile Manufacturing
01-01-2019
-31-12-2022
01-01-2019
-31-12-2022
01-10-2019
-30-09-2023
Standardisation helps the end client to have complete knowledge of the equipment's lifespan, which increases dependability and enables servitisation (for example, leasing) towards machine resale. The standardisation criteria that are described by RECLAIM centre on two key subjects: (1) maintenance procedures and predictive maintenance, together with (2) specifications and design for remanufacturing.
The standards that are proposed by RECLAIM are the "CWA 17492:2020-Predictive control and maintenance of data intensive industrial processes" standard, which focuses on predictive maintenance, defines machine learning / deep learning techniques for predicting process and equipment drifts, thereby providing recommendations on when to perform maintenance and the state of the machine. A set of key
performance indicators is defined in "EN 15341:2019-Maintenance-Maintenance Key Performance Indicators" to quantify and improve the efficacy, efficiency, and sustainability of maintenance actions for physical assets. “prEN 17485-Maintenance-Maintenance within physical asset management-Framework for improving the value of the physical assets through their whole life cycle” and “EN16646:2015-Maintenance-Maintenance within physical asset management” introduce the physical asset management and address the role and importance of maintenance within physical asset management system during the whole life cycle of an item. The maintenance process is depicted by all the characteristics and steps of the stated processes in "EN 17007:2018-Maintenance process and associated indicator," along with the construction of a maintenance model that provides instructions for defining indicators. This is a crucial step in standardising the entire maintenance procedure. By doing so, all the maintained equipment will be comparable to one another, allowing lifetime extension tactics to be eventually more accurate in their analysis. The "ANSI RIC001.1-2016-Specifications for The Process of Remanufacturing" standard, which focuses on the definition of remanufacturing and clearly distinguishes it from other activities, is one that addresses remanufacturing standards. Additionally, it offers a benchmark, specification, and characterisation of the remanufacturing process.
01-01-2020
-31-12-2023
The EFPF project has undertaken standardization activities during its implementation in order to promote interoperability and support the development of new standards. Some of the specific standardization activities that were developed include drafting of documents for the CWA (common workshop agreement) 'European connected factory platform for agile manufacturing interoperability (EFPFInterOp)', which are listed in a dedicated project deliverable. The project did not encounter any significant risks or difficulties related to standardization activities, as the NSB (project partner) applied sound risk management and provided clear guidance on how to mitigate any potential risks.
After the project's completion, the partners will continue to promote the CWA and the standard way of establishing federated platforms. Additionally, the project has produced deliverables such as the CWAs developed by the CEN-CENELEC workshop EFPFInterOp.
To strengthen the links between research, innovation, and standardization in the future, it is important to raise awareness of existing standards. This can be done by making more people aware of the standards that are currently in place and reminding them that the standardization process is ongoing. Additionally, encouraging more collaborations between research, innovation and standardization organizations in order to promote research and innovation in a standard-compliant way can also be beneficial.
The project has shown how to integrate the architectural features of several platforms, and how to facilitate cross-platform business activities. The interoperable Data Spine is already constructed and will shortly be verified. By offering tools for data sharing, intelligence exchange, and process optimisation, the project increases the agility of the targeted value networks. A comprehensive federated platform is created by combining the traits of current platforms. Using the open-call mechanism, The Data Spine gives the federated platform an extensible component that enables the integration of other platforms and collaborative tools to be provided through a unified user experience. An ideal alignment between the EFPF tools and relevant standards is made possible by participation in standardisation committees developing standards for strategic areas, but it must be continually evaluated and updated. By participating in strategic standardisation groups, EFPF becomes more visible to important stakeholders and has easier access to information that is directly relevant to the project. The idea of a CEN Workshop Agreement as a deliverable for standardisation has directly benefited EFPF as an ecosystem of digital platforms.